Introduction to Cement - 3 (Kalpna Sharma) PDF

Summary

This document provides an introduction to cement, discussing raw materials and the manufacturing process. It also covers standardization and various types of cement.

Full Transcript

Raw Materials
The major raw materials used in the manufacture of cement are rich in
Calcium, Silicon, Iron and Aluminium. These minerals are used in different
form as per the availability of the minerals.
 CEMENT MANUFACTURING
There are four stages in the manufacture of Portland Cement:
 crushing and grinding the raw materials,
 blending the materials in the correct proportions
 burning the prepared mix in a kiln and
 grinding the burned product, known as “clinker,” together with optimum
percent of gypsum (to control the setting time of the cement).
STANDARDIZATION OF CEMENT

 Product standardization- The process of setting generally uniform
characteristics for a particular good or service
 Standards- Standards are published documents that establish
specifications and procedures designed to ensure the reliability of the
materials, products, methods, and/or services people use every day
 Quality- The working definition of 'quality' is the minimum level of
performance required to fulfil a specification.
 STANDARDIZATION OF CEMENT
Why standardization- Standardization, by both national and international
bodies, aims to facilitate the exchange of goods and services. These
standards are a reference guide for all parties enabling them to define a
required specification and to provide a quality standard against which the
delivered item can be tested and controlled. Most of the countries, if not all,
have national standardization bodies.
Most countries, if not all, have national standardization bodies.
 Bureau of Indian Standards- (BIS) is one of the regulatory agencies in India.
BIS is the national standards body for the harmonious development of the
activities of standardization, conformity assessment and quality assurance
of goods, articles, processes, systems and services and for matters
connected therewith or incidental thereto.
 As per BIS, cement is one of the trade products for which BIS certification is
mandatory.
INDIAN STANDARD SPECIFICATION FOR
VARIOUS CEMENTS
SN BIS CEMENT TYPE PURPOSE OF
SPECIFICATION UTILISATION
1 IS :16353-2015 Portland Cement Clinker For Cement preparation
2 IS :269-2015 Ordinary Portland Cement- 33G- General Purpose
33G,43G,53G,43-S & 53-S 43G- Precast concrete:M-
25 concrete mix design
53G- FOR Higher grade
concrete mix design M-30
and above
43 & 53S – Railway
Sleeper

3 IS :12600-1989 Low Heat Portland Cement Mass Concreting to reduce
risk of thermal cracking
4 IS :8041-1990 Rapid Hardening Portland General Purpose and high
Cement early strength requirements
5 IS :3466-1988 Masnory Cement For mortars and plastering
purpose
INDIAN STANDARD SPECIFICATION FOR
S BIS
VARIOUS
CEMENT TYPE
CEMENTS
PURPOSE OF UTILISATION
N SPECIFICATION
6 IS :6452-1989 High Alumina Cement For high early strength in cold
climate (under sea water
construction)

7 IS :6909-1990 Super Sulphated Cement For Sulphate Resisting
applications
8 IS :8042-2015 White Portland Cement For Tile, Flooring Work
9 IS :8043-1991 Hydrophobic Portland For Use in High Humidity
Cement
10 IS :8229-1986 Oil-Well Cement For use in Oil Well
11 IS :12330-1988 Sulphate Resisting For Sulphate Resisting
Portland Cement applications
12 IS :16993-2018 Microfine Ordinary & For rock grouting, grouting
Sulphate Resisting concrete structures and
Portland Cement under ground construction for
leak prevention
INDIAN STANDARD SPECIFICATION FOR
BLENDED CEMENTS

SN BIS CEMENT TYPE PURPOSE OF
SPECIFICATION UTILISATION

1 IS :1489 (PART 1)- Portland-Pozzolana Cement- General Purpose-
2015 Fly Ash Based hydraulic structures
like dam

2 IS :1489 (PART 2)- Portland-Pozzolana Cement- General Purpose
2015 Calcined Clay Based

3 IS :455-2015 Portland-Slag Cement General Purpose

4 IS :16415-2015 Composite Cement General Purpose
 Family of Portland Cement

Sulph Hydropho
Resist Oil Well bic White

Rap
Ordinary Portland Cement Harden
Low Heat
Clinker Supersulp
C3S + C2S + C3A + C4AF + CaO + h
Composite MgO H Alumina

OPC PSC PPC Masonry
 Indian Standard Specifications for
SN IS No.
Various Types of Cement
Reaff. Yr. Amendments Title

1 IS 16353:2015 2020 - Specification for Portland cement clinker
2 IS 269:2015 2020 - Specification for ordinary Portland cement
3 IS 455:2015 2020 1 Specification for Portland slag cement
4 IS 1489 (Part 1):2015 2020 1 Specification for Portland Pozzolana cement: Part 1- Fly ash
based

5 IS 1489 (Part 2):2015 2020 - Specification for Portland Pozzolana cement: Part 2-
Calcined clay based

6 IS 3466:1988 2018 9 Specification for masonry cement
7 IS 6452:1989 2014 9 Specification for high alumina cement for structural use
8 IS 6909:1990 2021 5 Specification for super sulphated cement
9 IS 8041:1990 2014 4 Specification for rapid hardening Portland cement
10 IS 8042:2015 2020 - Specification for white Portland cement
11 IS 8043:1991 2014 3 Specification for hydrophobic Portland cement
12 IS 8229:1986 2018 6 Specification for oil-well cement
13 IS 12330:1988 2019 6 Specification for sulphate resisting Portland cement
14 IS 12600:1989 2014 5 Specification for low heat Portland cement
15 IS 16415:2015 2020 - Specification for composite cement
16 IS 16993:2018 - 1 Specification for composite cement
 1. Portland Cement Clinker

IS 16353: 2015
is for both chemical and mechanical characteristics
Made by burning powdered raw mix at 1400-14500C in rotary kiln
Consists of four major crystalline mineral phases alite, belite,
aluminate, ferrite and minor compounds such as free lime,
magnesium oxide, alkali oxides, heavy metal oxides, chlorides etc.
In absence of gypsum (set regulator), clinker when finely ground, sets
immediately on add water- a phenomenon called Flash set
Chemical characteristics are to be tested with clinker only while
mechanical characteristics are tested after cement preparation.
 2. Ordinary Portland Cement
IS 269: 2015
Most commonly used for construction work, available in three grades 33 Grade,
43 Grade and 53 Grade. Grading has been done as per the minimum
compressive strength requirement at different ages
These grades are introduced to cater the needs for the construction of long span
bridges, high rise structures and other structures of gigantic magnitude requiring
high grades of concrete
Introduction of precast/ prestressed railway sleepers necessitated production of
Special grade OPC aimed to obtain desired strength and rate of strength gain
Thus two more varieties were added OPC 43 S and OPC 53 S Grade cement
Five types of Portland Cement made in India which are differ from physical and
chemical property especially compressive strength.
The most important use of Portland cement is the production of concrete. It plays
an important role in setting and hardening the concrete.
It may be molded to obtain a hard and fire-proof material which may further be
employed in designing buildings, shop floors, reservoirs and other foundations.
Any structure that is meant to support huge amounts of weight will bring Portland
cement into use.
Due to its ability to prevent corrosion, it is also put to use in ships, tanks and
bunkers.
 Undisputed Advantages of Blended
Cements
Low heat of hydration
Reduced water demand
Improved resistance to sulphate and chloride
Increased resistance to ASR
Waste consuming
Natural resource saver
 3. Portland Slag Cement

IS 455: 2015
Clinker + GGBFS + gypsum
Slag 25-70 % by mass
Fineness is kept above 225 m2/kg
Prepared by inter grinding or separate grinding and blending
Because of low lime content, sulphate resistance properties of
concrete improve and make it suitable for coastal areas
Heat of hydration is lower than OPC and PPC
General purpose cement but particularly desirable for marine
structures, sewers, mass concreting, large foundation etc.
 4. & 5. Portland Pozzolana Cement
IS 1489 (Part 1): 2015 Fly ash based
IS 1489 (Part 2): 2015 Calcined Clay based

Prepared by either inter grinding or separate grinding and blending
Clinker + fly ash/ CCP + gypsum
Pozzolana 15-35 % by mass, Calcined Clay-10 to 25%
Fineness is kept above 300 m2/kg
General purpose cement but more durable in aggressive environment
Good resistance to sulphate attack, enhances impermeability and
cohesiveness of concrete, low heat of hydration
Mostly used for domestic consumption like plastering, brick work,
mass concreting for dams, large foundations
 6. Masonry Cement

IS 3466:1988
Cement for working of mortars for bricks, stones and concrete block
masonry
Clinker + gypsum + pozzolana/inert fillers + air entraining agents
Considered superior to lime mortar, lime-cement mortar or cement
mortar
Chances of misuse as a structural cement
 7. High Alumina Cement

IS 6452:1989
First published in 1972, first revision on 24.11.1989 (currently used)
A special cement containing hydraulic calcium aluminates as the
major ingredient
Presence of monocalcium aluminate (CaO Al2O3- CA) imparts unique
properties- high early strength and refractoriness
Mainly a refractory cement
In cold regions may be used as a structural material taking advantage
of high heat of hydration and high early strength development
As CA imparts high early strength hence HAC has special utility for
emergency repair and construction
Hydration product of CA conversion from dicalcium aluminate hydrate
to aluminium hydroxide + tricalcium aluminate hydrate + water results
in increased porosity and gradual reduction in strength
The above conversion is more rapid in presence of moisture and
temperature 18-200C
In tropical climate the loss in strength can be 50 to 80%
 7. High Alumina Cement

Due to controversial results of long term storage effects on HAC
concrete under water, at temperatures around 180C the use of this
cement should be restricted to areas of continuously low
temperatures and highest summer temperature may not exceed
180C
The restrictions for use of HAC about use in concrete are:
 HAC is not to be used in locations where temperatures can
exceed 180C even for a short period
 HAC shall not be used for mass concreting where high heat of
hydration can induce conversion of hydrated compounds
 Accelerators (e.g. calcium chloride) shall not be used with HAC
 Steam curing/ elevated temperature curing shall be avoided
 HAC shall not be mixed with any other type of cement
 8. Super Sulphated Cement

IS 6909:1990
First published in 1973
It contains 80-85% GGBFS, 10-15% calcium sulphate (gypsum or
anhydrate) and 5% Portland Clinker or Lime as an activator.
Important amendments include
I. incorporating a clause on false set of cement
II. permitting packaging of cement in 25 kg bags,
III.making compulsory provision for issuing a certificate indicating
the total chloride content in percent by mass of cement,
IV.modification in the tolerance requirements for the mass of cement
packed in bags, etc.
 8. Super Sulphated Cement
Super sulphated cement has been successfully used in a variety of
aggressive conditions,
for marine works,
mass concrete jobs to resist the attack by aggressive water,
reinforced concrete pipes in ground water,
concrete construction in sulphate bearing soils,
It has been used for the underside of bridges over railways and
for concrete sewers carrying industrial effluents.
 8. Super Sulphated Cement

Its use under tropical conditions has' also been recommended,
provided the prevailing temperature is below 40°C.
Although its use as a general purpose cement can be made with
adequate precautions, it is not recommended for producing steam-
cured products.
Production of this cement will also result in greater utilization of blast
furnace slag, an industrial by-product of steel in the country.
Note - The limit of 40°C for use of this cement in tropical conditions
is on the basis of available literature and this limit will be reviewed
when more experience will be gained with the use of this cement in
this country.
 9. Rapid Hardening Cement

IS 8041: 1990
Portland cement designed to hydrate faster
Used for special purpose when a faster rate of early high strength
/ rapid development of strength is required to carry out urgent
repair etc.
Applications are in air field and highway pavements, marine
structures and bridge decks
High C3S content combined with higher minimum fineness
specified (more than 325 m2/ kg), contribute towards high early
strength
The rapid gain of strength is associated with high rate of heat
evolution; hence, not used for mass construction
One day and seven day strength specified
 10. White Portland Cement

IS 8042: 2015
Basically OPC except that while choosing raw materials,
maximum iron oxide content is strictly restricted to 1%
C4AF imparts grey color to cement
High burning temperature
Special quenching system is used
Clinker is made using fuel oil/ gas as fuel to ensure whiteness
and with iron oxide content below 0.4% to ensure whiteness
Use of whiteners
Application- decorative, for aesthetic value, in tiles and flooring
 11. Hydrophobic Cement

IS 8043: 1991
Hydrophobic cement consists of finely ground cement with a suitable
hydrophobic agent like oleic acid, stearic acid or pentachloro phenol
The hydrophobic agents coat the cement particles by a water repellent
film and entrain about 1 percent air
Thus cement is protected from moisture on prolonged storage under
unfavorable conditions
Protective film is destroyed during mixing in mortar or concrete
They impart a high level of protection of cement against premature
hydration from atmosphere
 12. Oil Well Cement

IS 8229: 1986
Made from clinker and special additives to prevent porosity
Wide applications in the exploration for and the production of oil
and gas ( to fill the space between the steel lining tubes and oil
well walls)
It sets slowly and is used as slurry to allow sufficient time to reach
large depths in oil wells
Organic retarders are used to prevent from fast setting
Once it sets, gains strength rapidly and remains stable under high
temperature and pressure conditions
API specification 10A
Nine classes of well cement for use at different well depths
 13. Sulphate Resisting Cement

IS 12330: 1988
C3A content is restricted to 5%, C3S is moderate and other
chemical constituents are similar to OPC
Used for construction of structures in contact with soil or water
with high sulphate concentration
Beneficial in the areas where concrete is exposed to seacoast
or sea water or soil or ground water
This cement can be used to reduce the impact of damage to
harsh environment
Cement to withstand the attack of souble sulphate salts in
ground water (-300 ppm) or soil (-0.2 %)
 14. Low Heat Cement

IS 12600: 1989
High proportion of C2S, Low C3S and C3A contents
Slow in hardening in early ages and heat liberated due to
hydration is reduced
Due to low C3S, minimum early strength is lower than OPC but
ultimate strength is unaffected
To ensure sufficient rate of strength gain, fineness is not less
than 320 m2/kg
Suitable for mass concreting such as dams, bridge abutments
and retaining walls
 15. Composite Cement
IS 16415:2015
Composite Cements are the cements in which a proportion of
Portland cement clinker is replaced by industrial by products,
granulated blast furnace slag and pulverized fuel ash.
Composite cement offers better opportunity to conserve natural
resources in terms of limestone by replacing higher percentage of
clinker, having lower carbon footprints without compromising on
concrete properties.
Material Proportion to be used in Composite Cement
SN Material Proportion
(Percent by weight)
1 Portland Cement Clinker/ OPC 35-65
2 Fly ash 15-35
3 Granulated slag 20-50
 Indian Standard Specifications for
Hydraulic Cements
Requirements for Mechanical Characteristics as per Indian Standard Specifications for Hydraulic cements
BISSpecificatio IS: IS: 1489
IS: 12600- IS: 8041- IS: 8042- IS: 8043- IS: 1489 (Pt IS: 455- IS: 12330- IS: 6909- IS: 16415-
16353- IS: 269- 2015 (pt II)-
n→ 1989 1990 2015 1991 I)- 2015 2015 1988 1990 2015
2015 2015

Clinker PPC (FA PPC (CCP
TestParameter↓ OPC 33 OPC 43 OPC 43 S OPC 53 OPC 53 S LHC [a] RHC WPC [b] HPC [c] PSC SRPC [d] SSC CC
[ ] Based) Based)

Fineness, m2/kg
NS 225 225 370 225 370 320 325 225 350 300 300 225 225 400 300
(min.)
Setting Time,
min.
Initial (min.) 30 30 30 120 30 120 60 30 30 30 30 30 30 30 30 30
Final (max.) 600 600 600 600 600 600 600 600 600 600 600 600 600 600 600 600
Compressive
Strength N/
mm2
24 ± 1/2 h (min.) NS NS NS NS NS NS NS 16 NS NS NS NS NS NS NS NS
72 ± 1 h (min.) 16 16 23 23 27 27 10 27 16 16 16 16 16 10 15 23
168 ± 2 h (min.) 22 22 33 37.5 37 37.5 16 NS 22 22 22 22 22 16 22 33
672 ± 4 h (min./
33 33/48 43/58 43 53 53 35 NS 33 30 33 33 33 33 30 43
max.)
Soundness
Le Chat Exp.
10 10 10 5[*] 10 5[*] 10 10 10 10 10 10 10 10 5[*] (cold) 10
mm (max.) [e]
Autoclave Exp.
0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 NS 0.8
% (max.) [f]

DS ≤ 0.15 % DS ≤ 0.15
Slag
& %& Slag
Other Content
─ ─ ─ ─ ─ ─ ─ ─ ─ ─ Pozzolana Pozzolan Content ─ DS ≤ 0.15 %
Requirements 70 %
Content 15- a Content 25-70 %
(min.)
35 % 10-25 %

[a]: Heat of Hydration, kJ/ kg (max.): 272 at 7 days and 314 at 28 days [e]: 5 mm (max.) after aeration
[b]: Whiteness Index: > 70 % [f]: 0.6 % (max.) after aeration
[c]: Hydrophobicity test is an additional requirement [*]: Without aeration
[ ]: Clinker ground to fineness 220 ± 25 m2/ kg & gypsum added to get SO3 ≤ 3.5 for
[d]: Max sulphate expansion at 14 days 0.045 % (optional) conformity check
 Indian Standard Specifications for
Hydraulic Cements
Requirements for Chemical Characteristics as per Indian Standard Specifications for Hydraulic cements
IS: IS: 1489 IS: 1489
IS: 16353- IS: 8041- IS: 8042- IS: 8043- IS: 455- IS: 12330- IS: 6909- IS: 16415-
BISSpecification→ IS: 269- 2015 12600- (Pt I)- (pt II)-
2015 1990 2015 1991 2015 1988 1990 2015
1989 2015 2015
PPC (FA PPC (CCP
TestParameter↓ Clinker OPC 33 OPC 43 OPC 43 S OPC 53 OPC 53 S LHC RHC WPC HPC PSC SRPC SSC CC
Based) Based)
Loss on Ignition %
1.50 5.00 5.00 4.00 4.00 4.00 5.00 5.00 7.00 5.00 5.00 5.00 5.00 5.00 NS 5.00
(max.)
Insoluble Residue %
1.00 5.00 5.00 2.00 5.00 2.00 4.00 4.00 4.00 4.00 © © 4.00 4.00 4.00 ©
(max.)
2.5/ 3.0

Total SO3 % (max.) 2.70 3.50 3.50 3.30 3.50 3.30 2.5/ 3.0 3.50 3.50 3.50 3.50 3.50 2.50 6.00 3.50

Magnesium Oxide %
6.00 6.00 6.00 5.00 6.00 5.00 6.00 6.00 6.00 6.00 6.00 6.00 10.00 6.00 10.00 8.00
(max.)
Lime Saturation
0.66-1.02 0.66-1.02 0.66-1.02 0.8-1.02 0.8-1.02 0.8-1.02 - 0.66-1.02 0.66-1.02 0.66-1.02 NS NS NS 0.66-1.02 NS NS
Factor (range)
Al2O3/ Fe2O3 (min.) 0.66 0.66 0.66 0.66 0.66 0.66 0.66 0.66 NS 0.66 NS NS NS NS NS NS
Total Alkalies as 0.60 0.60
0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 0.60 NS NS NS
Na2O % (max.) 0.90* 0.90**
Chloride % (max.)
For prestressed
0.05 0.05 0.05 0.05 0.05 0.05 - 0.05 0.05 0.05 0.05 0.05 NS NS 0.05
concrete 0.10
For other uses 0.10 0.10 0.10 0.10 0.10 0.10 - 0.10 0.10 0.10 0.10 0.10 NS NS 0.10
Other Requirements
Sulphid
Sulphide
Pozzolana Pozzolana e C4AF +
Free Lime C3S 45 % C3S 45 % Fe2O3 1 Sulphur
Content Content Sulphur 2C3A = 25 Clinker/
3 % (max.) (min.) (min.) % (max.) 1.5 %
15 to 35 % 10 to 25 % 1.5 % % (max.)
(max.) OPC-35 to
(max.) 65 %, Fly
ash- 15-35
C3S 35 % C3A 10 % C3A 9 % Slag 25 C3A 5 % Slag 70 % %, Slag-
(min.) (max.) (max.) to 70 % (max.) (min.) 20 to 50 %,
Sulphide
C3A 3 to Sulphur
12 0.75 %
C3S + C2S (max.)
70 %
(min.)
C3A= 2.65(Al2O3)-1.69(Fe2O3), C2S=2.87(SiO2)-0.75(C3S) When C3A ≤ 5%
C3S= 4.07(CaO)-7.60(SiO2)-6.72(Al2O3)-1.43(Fe2O3)-2.85(SO3), When C3A > 5%